DE728542C - Receiving device for overlay remote control systems - Google Patents

Description

Receiving device for overlay remote control systems It is known the power conductors of an alternating current network or three-phase network with currents from outside the network Frequency, especially audio frequency, for the purpose of remote control of the power network overlay connected receiving devices. The overlay energy can thereby between the individual network conductors themselves or between these conductors and earth can be pressed on and removed. Such remote control methods are used, for example, do regulating transformers, power switches, clocks, meters, street lights, etc. to be operated remotely from a control center. Especially when devices are controlled remotely that the switching status of power supplies, substations, regulating transformers etc., it is desirable to set up the remote control operation in such a way that that even in the event of network malfunctions, remote control operation will last as long as possible can be maintained, for example, even when in a three-phase network all but one of the conductors have failed. Since the arriving at the receiving point Overlay energy is usually very small, one is usually through the receiving relay Do not let the desired switching process be carried out directly, but rather will equip the relays with auxiliary devices (electromagnets, small motors, etc.), which in turn only initiate the actual switching process. Also, the Receiving apparatus themselves often such auxiliary apparatus, for example drives and the like, for the selection of the incoming impulses. If now the remote control operation should still be feasible even if all but one of the power lines has failed are, then it must be ensured that these auxiliary apparatus also in in this case still work reliably. You can now use clockworks as drives Spring drive or electromagnets, small motors with independent of the power network Use voltage source; but this has the disadvantage that then for this apparatus special monitoring is required and the acquisition and operating costs for the receiving devices.

The invention aims to remedy these shortcomings. According to the invention the auxiliary device is connected to one phase of the multi-phase high-voltage power supply via a connected by the voltage of this phase controlled switch, which in the event of failure this phase voltage automatically connects the auxiliary device to the winding connected in polygon a transformer of this network or to the secondary winding of a voltage converter o. The like. Connects its primary winding between the zero point of a power apparatus and earth is switched on, or to a voltage divider connected in a similar manner lays. In general, in the event of malfunctions, the procedure is to start with the different power conductors of the network single-phase with the power voltage scan to determine "-which conductors are disturbed or intact. To the The high-voltage voltage is then left intact for the duration of the remote control act lie and at the same time superimpose this conductor with the control frequency. Is for In the event of a fault, the power source with which the conductors are scanned is earthed, then the auxiliary equipment can easily be at the receiving point between connected to this conductor and earth by means of transformers, voltage dividers and the like will. If the power source is scanned with the int fault trap the conductors be not grounded, then can at the receiving point when the scanning voltage sufficiently high and the conductor is long enough, the energy for feeding is readily available the auxiliary equipment between earth and the conductor as before via transformers, Voltage divider, etc. are removed, since in this case there are sufficiently large charging currents result. If, on the other hand, the line is relatively short, then it is advisable to use the sending point and possibly at the receiving point between earth and the relevant Head capacitors or combinations of capacitors and inductors or Turn on resistors to provide an electrical return for the high current frequency to obtain. However, one must ensure that the capacitors are switched on o. The like. Short circuits for the superimposed control currents do not arise. You will therefore, for example, the capacitors are tuned to the superimposition frequency Connect blocking circuits upstream. the capacitors by connecting chokes in parallel add to such blocking circles. or one becomes with a series connection of capacitance and inductance match these two quantities to one another in such a way that they are for the Power frequency sufficiently permeable, but for the higher superimposition frequency are practically impermeable, or one will choose the resistances accordingly grudgingly. In the event that only one conductor of the network is disturbed or earthed, «-earths each other for the supply of the auxiliary devices usually do not result in any particular difficulties.

The invention is based on the exemplary embodiments shown in the drawing are explained in more detail.

In Fig. I, X is a power network, which by means of a tone frequency generator i via the series connection of an inductance 2 and a capacitance 3 as well as via a switch .I that can be switched to the individual phases RSt is superimposed to earth @cerdeil can. At the receiving point there is a relay via a primary side, for example connected in star, secondary transformer 5 connected in polygon. This circuit means that the relay r, regardless of which of the three Phases is superimposed, always receives the required L: superposition energy. 6th is for example a synchronous small motor, which is used in a known manner as a drive for a so-called time device of the relay serves. The engine 6 is over a switching contactor 7 as long as the winding part 8 of the secondary side of the transformer 5 voltage leads, connected to this winding part by means of the coil cycles q, io. If the voltage of this part of the winding fails, the contactor applies; automatically the motor 6 to the contacts io, i i um; the motor is then in the polygon of in Polygon connected secondary winding of the transformer 5 is switched on So even then voltage, little one or two phases of the three-phase network fail.

Fig. 2 shows a similar embodiment, in which the Fig. I corresponding parts are provided with the same reference numerals. Here too is the motor 6 via a changeover contactor to a winding part of the transformer 5 connected. If the voltage in this part of the winding fails, the motor will automatically on the secondary winding 12 one with its primary winding between the zero point 13 and the earth Z switched transformer, z. B. voltage converter, gelet. Instead of Span-Z> converter can also be any Voltage divider circuit, a capacitive or similar coupling. In certain circumstances the motor 6 depending on the failure of individual ones can be achieved by using several changeover contactors Phases automatically connected to one of the three phases that are still live will.

The invention offers the advantage that even with severe malfunctions In the heavy current network, the auxiliary equipment described is still fed from the heavy current network and consequently no special energy storage devices, springs, batteries, etc., are necessary for the operation of these devices.

Claims (2)

PATENT CLAIMS: i. Receiving device for overlay remote control systems with auxiliary devices (electromagnets, synchronous small motors, etc.), which are actuated by a receiving relay remotely controlled by means of overlay and which in turn initiate the desired remote control act, characterized in that the auxiliary device is connected to a phase of the multi-phase high-voltage power supply is connected to the voltage of this phase controlled switch, which automatically connects the auxiliary device to the polygon-connected winding of a transformer (5, Fig. i) of this network or to the secondary winding of a voltage converter o Zero point of a heavy current apparatus and earth is switched on (Fig. 2). 2. Receiving device after Claim i, characterized in that at the transmission point, possibly also but practically impermeable to the superimposed currents at the receiving point Devices (capacitors with upstream blocking circuit for the superposition frequency, for the superposition frequency practically impermeable series or parallel connections of capacitors and inductors or the like) or resistors are connected.